Storage device for storing multiple recorded media

ABSTRACT

A storage device for multiple optical discs in accordance with an embodiment of the present invention includes a front cover, a back cover, and a spine rotatably connecting the front cover and the back to allow for rotation between a closed position and an open position. A tray is rotatable coupled to the spine between the front and back covers and includes a first hub on a first surface operable to retain a first disc, and a second hub on a second surface operable to hold a second disc. The second hub is offset from the first hub such that the first disc does not overlap the second hub and the second disc does not overlap the first hub. A second tray may be rotatably coupled to the spine between the front and back covers, adjacent to the first tray. The second tray preferably includes a third hub on a first surface operable to retain a third disc and a fourth hub on a second surface operable to retain a fourth disc. The fourth hub is offset from the third hub such that the third disc does not overlap the fourth hub and the fourth disc does not overlap the third hub.

CROSS REFERENCE TO RELATED APPLICATIONS

The present application claims benefit of and priority to U.S Provisional Patent Application No. 60/738,850 entitled STORAGE DEVICE FOR MULTIPLE RECORDED MEDIA filed Nov. 22, 2005, the entire contents of which are hereby incorporated by reference herein.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a storage device for the storage of multiple recorded media such as DVD's, CD's or the like. More specifically, the present invention relates to a storage device that can store up to 6 recorded media or discs wherein the width of the storage device does not exceed the standard 15 mm width of a conventional storage device.

2. Description of the Related Art

Studios and other content providers have been selling more and more multi-disc DVD titles in recent years, especially with the release of popular TV series. Packaging for these titles are quite varied as compared with the standard new movie release DVD's. Most of these packages are a combination of paperboard and plastic and are expensive and bulky. Retailers have difficulty displaying the media due to the varying size configurations. Some packaging companies are currently offering 2-3 and even 4 disc configurations in the standard 15 mm DVD “Amaray” style case.

In conventional multiple disc storage cases, the case includes a front cover and a back cover rotatably connected to each other by a spine. One or more trays are rotatably connected to the spine to be between the front cover and the back cover. Each tray typically includes a first hub for securing a disc formed on a first or front surface of the tray and a second hub for securing a disc formed on a second or rear surface of the tray. However, in such storage cases, the first and second hubs are generally positioned such that the disc secured by one hub overlaps the second hub. Such a tray is illustrated in FIG. 4. A problem arises, however, when more than one of the prior art trays is used to store multiple discs. In this situation, the case is closed and the trays are positioned adjacent to each other. In the closed position, the raised hub of one of the trays contacts a disc of the other tray and in order to ensure that the case properly closes, the width of the case must be increased. This increase in the width of the disc storage case makes storage and display of the storage case inconvenient. Thus, it would be desirable to provide a storage device for discs, such as DVDs, that avoids the problems mentioned above.

SUMMARY

It is an object of the present invention to provide a storage device for the storage of multiple discs on preferably two trays that secure the discs. Each tray includes two hubs for securing the discs in the storage device, wherein a first hub is positioned on a first surface of the tray and a second hub is positioned on a second surface of the tray opposite the first surface and wherein the second hub is positioned on the second surface offset from the first hub such that a disc stored on the first hub does not overlap the second hub and where a disc stored on a hub of a first tray does not overlap an opposing hub of a second tray. In an example embodiment, the first and second hubs are offset by about 70 mm.

A storage device for multiple discs in accordance with one embodiment of the present invention includes a front cover, a back cover, a spine rotatably connecting the front cover and the back cover such that front cover and back cover are rotatable between an open position and a closed position and wherein a compartment is formed between the front cover and the back cover when they are in the closed position and a first tray, rotatably coupled to the spine between the front cover and the back cover such that the first tray is positioned in the compartment formed by the front cover and back cover when they are in the closed position. The first tray further includes a first hub, positioned on a first surface of the first tray and operable to retain a first disc, and a second hub, positioned on a second surface of the first tray, opposite the first surface, and operable to hold a second disc, wherein the second hub is offset from the first hub such that the first disc does not overlap the second hub and the second disc does not overlap the first hub.

A storage device for multiple optical discs in accordance with another embodiment of the present invention includes a front cover, a back cover, a spine rotatably connecting the front cover and the back cover such that the front cover and back cover are rotatable between an open position and a closed position and wherein a compartment is formed between the front cover and the back cover when they are in the closed position and a first tray, rotatably coupled to the spine between the front cover and the back cover such that the first tray is positioned in the compartment formed by the front cover and back cover when they are in the closed position. The first tray includes a first hub, positioned on a first surface of the first tray and operable to retain a first optical disc, and a second hub, positioned on a second surface of the first tray, opposite the first surface, and operable to hold a second optical disc, wherein the second hub is offset from the first hub such that the first optical disc does not overlap the second hub and the second optical disc does not overlap the first hub. An opening is formed in the first tray in an area where the first optical disc and the second optical disc overlap each other.

A storage device for the storage of multiple discs in accordance with another embodiment of the present invention includes a first tray operable to secure discs and a second tray operable to secure discs. Each tray includes two hubs for securing the discs in the storage device, wherein a first hub is positioned on a first surface of each tray and a second hub is positioned on a second surface of each tray, opposite the first surface, and wherein the second hub is positioned on the second surface offset from the first hub such that a disc stored on the first hub does not overlap the second hub and a disc stored on one of the first and second hubs of the first tray does not overlap an opposing hub of the second tray.

Other features and advantages of the present invention will become apparent from the following description of the invention, which refers to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWING(S)

FIG. 1 is an illustration of a storage device for multiple discs in accordance with one embodiment of the present invention;

FIG. 2 is an illustration of a storage device for multiple discs in accordance with another embodiment of the present invention;

FIG. 3 is an illustration of a T-shaped clip for use in the storage devices illustrated in FIGS. 1 and 2;

FIG. 4 is a photograph of a tray of a conventional disc storage case;

FIG. 5 is an illustration of a tray for use in the storage devices of FIGS. 1 and 2; and

FIG. 6 is a photograph of a tray substantially similar to that illustrated in FIG. 5.

FIG. 7 is an illustration of a storage device for multiple discs in accordance with one embodiment of the present invention.

FIG. 8 is an exploded view illustrating connections between a first and second tray, a connector and a U-shaped clip of the storage device of FIG. 7.

FIG. 9 is a more detailed view of a top portion of a spine of the storage device of FIG. 7.

DESCRIPTION OF THE EMBODIMENTS

The storage device 10 of the present invention may be used in conjunction with any known storage case for recorded media. An example of such a storage case is illustrated and described in U.S. Patent Publication No. 20040173477, Ser. No. 10/796,332 filed Mar. 8, 2004 entitled CASE WITH INTERNAL LOCK, the entire contents of which are hereby incorporated by reference herein.

The storage device 10 of the present invention may be configured to store any number of discs. In example embodiments, the storage device 10 can store 5 or 6 discs depending on whether the inside front cover is needed to hold a booklet or other literature. The storage device is similar to a standard DVD library package made in polypropylene, except for the hubs used to hold the discs in place in the storage device 10 and the clips 31 that secure the trays 11 a, 11 b, described below, on the spine of the storage device.

In one example embodiment, illustrated in FIG. 1, two trays 11 a, 11 b are snapped into a clip 31 (see FIG. 3) disposed on the spine 16 of the storage device 10. Preferably each tray will hold two 120 mm discs, with one disc on each side of the tray. Since two trays are used, the trays may hold a total of 4 discs. A low profile hub 12 may be molded offset into the inner surface of the base side, or back cover 13 of the storage device so as not to interfere with the stack of 4 discs held by the trays 11 a, 11 b. The front side, or front cover 14 of the storage device 10 may include, on the inner surface thereof, the usual clips 15 that commonly hold a booklet related to the content of the discs. In this embodiment, therefore, the storage device 10 may hold a total of 5 discs.

In an alternative embodiment, illustrated in FIG. 2, the clips 15 can be removed from the front cover 14 of the storage device 10 and an additional hub 20 may be situated offset on the inner surface of the front cover so that the multiple disc storage device can store a total of 6 discs.

The total thickness of the trays 11 a, 11 b, even when six discs are stored in the storage device 10 does not exceed the internal dimensions of the compartment formed by the back cover 13 and front cover 14 of the storage device. This allows for a 15 mm thick package, which is generally the standard for DVD media storage cases.

More specifically, the storage device of the present invention preferably includes the front cover 14 and the back cover 13, each of which are rotatably connected to each other via the binding, or spine 16. The front and back covers 14, 13 may be rotated between an open position, in which the front cover and back cover are substantially separated from one another, as illustrated in FIGS. 1 and 2, and a closed position in which the front cover and back covers are substantially adjacent to one another. When in the closed position, the compartment is preferably formed between the front cover 14 and the back cover 13, in which trays 11 a and 11 b are positioned.

The trays 11 a, 11 b are connected to the spine 16 at an inner edge of the trays such that the trays fit completely within the compartment formed by the front cover 14 and back cover 13 when in the closed position. In a preferred embodiment, each of the trays 11 a, 11 b has two hubs 17 formed therein, each of which may be used to secure a disc. Preferably, a first hub is positioned on a first surface, or front surface of each tray. A second hub, is positioned on a second surface, or rear surface, opposite the front surface and is offset from the first hub such that a disc secured by the first hub does not overlap the second hub. Similarly, a disc secured by the second hub does not overlap the first hub.

Preferably, the hubs 17 are positioned such that the hubs on each surface of the tray are offset by about 70 mm. In this configuration, the discs secured in each of the hubs do not overlap the opposite hub. Utilizing the configuration of the storage device of the present invention, a disc secured on the second hub of tray 11 a, for example, also does not overlap the first hub of the tray 11 b. Thus, the trays 11 a and 11 b can be positioned adjacent to each other while avoiding interference between the discs stored on one tray and the hubs formed on the other tray. As a result, the width of the storage device 10 can conform to the standard 15 mm width used by the known DVD storage cases. The hubs 12 and 20 formed on the back cover 13 and the front cover 14, respectively, are similarly offset to avoid interference between the hub 12 and a disc stored on the second hub of tray 11 b and the hub 20 and a disc stored on the first hub of tray 11 a.

The hubs 17 engage the disc at the center portion thereof, with the hub extending up through the center hole of the disc. A depression 18 may be formed in the tray 11 a, 11 b around the hub 17 in which the disc is positioned. A lip 19 may be raised around the outer periphery of the disc to help protect the disc from damage while in storage. As a result, the total thickness of the tray in the area between the hubs where the discs on opposite sides of the tray overlap is very thin, since the depression 18 in which the disc stored on one side of the tray and the depression 18 in which the disc stored on the other side of the tray coincide in this area.

In order to provide a storage device capable of storing 6 discs, the distance between discs secured on hubs on opposite sides of a tray is only approximately 0.5 mm. Thus, the thickness of the tray in the area where the discs overlap can only be a maximum of 0.5 mm. However, practically speaking, it is very difficult to manufacture a tray, by injection molding, for example, which includes an area in which the thickness of the tray is only 0.5 mm. Therefore, in the present invention, this area of the tray is preferably removed, resulting in a window 21 formed in the tray in the area where the discs on opposing sides of the tray overlap, FIG. 5. The tray illustrated in FIG. 5 may be used as the trays, 11 a, 11 b of the storage device 10 illustrated in FIGS. 1 and 2 described above. FIG. 6 is a photograph of a tray substantially similar to that illustrated in FIG. 5. In FIG. 6, a disc is secured on a hub 17 on the opposite side of the tray 11 a, 11 b and is clearly visible through the window in the tray. Utilizing this concept for the tray 11 a, 11 b, the molding of the tray is simplified and the overall weight of the storage device 10 also decreases.

Referring now to FIGS. 3 and 5, in order to assemble and allow for the trays 11 a, 11 b to fold and nest properly in the storage device 10 when the storage device 10 is closed, a “T” shaped clip 31, illustrated in FIG. 3, is preferably provided at the top and bottom of an inner surface of the spine 16. Each of the trays 11 a, 11 b have a rod shaped feature 32 a, 32 b positioned on the top and bottom of the trays and parallel to the inner edges of the trays. The rod shaped features 32 a, 32 b engage and rotate on either side of the T-shaped clip. One tray 11 a is prevented from interfering with the other tray 11 b by the base 31 a of the T-shaped clip 31. Thus, the trays 11 a, 11 b are freely rotatable, for example, when the front cover 14 and the back cover 13 are in the open position, such that a user can easily access any of the discs secured on the hubs 17 of the trays 11 a, 11 b. Preferably, the rods 32 a, 32 b of the trays 11 a, 11 b are snapped into the T-shaped clip 31, for example as illustrated in FIG. 3, but can engage the trays 11 a, 11 b by any of the known methods.

In an alternative embodiment, the T-shaped clip 31 may be replaced by a U-shaped clip 70, as illustrated in FIG. 7, for example. The same reference symbols are used in FIG. 7 to refer to common elements illustrated in the previous figures. In particular, a first U-shaped clip 70 is provided on an inner surface of the spine 16 near the top thereof and a second U-shaped clip is provided on the inner surface of the bottom end of the spine 16. A first connector 72 is associated with the first U-shaped clip and a second connector 72 is associated with the second first U-shaped clip. The first and second connectors 72 are substantially the same in form and function, and thus the same reference numeral is used to refer to both. The connector 72 includes a first cylindrical protrusion 72 a extending from a first surface of the connector. A second cylindrical protrusion 72 b and a third cylindrical protrusion 72 c extend from the opposite side of the connector 72. The second and third cylindrical protrusions 72 b, 72 c are of a similar size and are adjacent to each other. A cavity 73 is formed in each of the second and third cylindrical protrusions (see FIG. 8). The U-shaped clip 70 includes locking protrusions 71 (see FIG. 8) that extend inwardly from the first and second legs 70 a, 70 b of the U-shaped clip 70. The first cylindrical protrusion 72 a of the connectors 72 is preferably structured to snap into place between the first and second legs 70 a,70 b of the first and second U-shaped clips 70. The first protrusion is secured in this position by the locking protrusions 71 such that the first and second connectors 72 are rotatably connected to the spine 16. The cavities 73 of the second and third cylindrical protrusions of the connectors 72 are structured to accommodate posts that extend from the inner edges of the first and second trays 11 a, 11 b and thus provide for a rotatable connection between the connectors 72 and the first and second trays. A first post and second post 74 a,74 b extend from the top and bottom, respectively, of an inner edge of the first tray 11 a and fit into the cavities 73 formed in the second cylindrical protrusions 72 b of the first and second connectors 72. Third and fourth posts 76 a,76 b extend from the top and bottom, respectively, of an inner edge of the second tray 11 b and fit into the cavities 73 formed in the third cylindrical protrusions 72 c of the first and second connectors 72. The interconnections between the first and second trays 11 a, 11 b, specifically posts 74 a, 76 a, the first connector 72 and the first U-shaped clip 72 are illustrated in the exploded view of FIG. 8. As can be seen in FIG. 8 the first connector 72 is rotatable relative to the spine 16 and the first and second trays 11 a, 11 b are both rotatable relative to the connectors 72. The same would be true for the connections between the trays 11 a, 11 b, second connector 72 and second U-shaped clip 70. FIG. 9 illustrates a more detailed view of the top portion of the spine that also highlights the connections shown in FIG. 8. Thus, in accordance with this embodiment, free rotation of the trays 11 a, 11 b is guaranteed.

The disc storage device in accordance with the present invention has the advantages described above, and also reduces the cost of manufacture and allows for easy display and storage of recorded media.

It is noted that while the present application makes specific reference to 120 mm discs, the present invention would be equally applicable to other recording media of different sizes, particularly other optical recording media. That is, where multiple optical recording media are stored in a single container, it is beneficial to ensure that the hub used to hold one disc does not interfere with other media in the container. That is, regardless of the specific size of the media, it would be beneficial to offset hubs used to retain the media by whatever amount is appropriate to avoid interference between the hubs and the media of opposing trays in the container.

Although the present invention has been described in relation to particular embodiments thereof, many other variations and modifications and other uses will become apparent to those skilled in the art. It is preferred, therefore, that the present invention be limited not by the specific disclosure herein. 

1. A storage device for multiple discs comprising: a front cover; a back cover; a spine rotatably connecting the front cover and the back cover such that front cover and back cover are rotatable between an open position and a closed position and wherein a compartment is formed between the front cover and the back cover when they are in the closed position; and a first tray, rotatably coupled to the spine between the front cover and the back cover such that the first tray is positioned in the compartment formed by the front cover and back cover when they are in the closed position; wherein the first tray further includes a first hub, positioned on a first surface of the first tray and operable to retain a first disc, and a second hub, positioned on a second surface of the first tray, opposite the first surface, and operable to hold a second disc, wherein the second hub is offset from the first hub such that the first disc does not overlap the second hub and the second disc does not overlap the first hub.
 2. The storage device for multiple discs of claim 1, further comprising: a second tray rotatably coupled to the spine between the front cover and the back cover, adjacent to the first tray, such that the first tray and second tray are positioned in the compartment formed by the front cover and the second cover when they are in the closed position; wherein the second tray further comprises a third hub, position on a first surface of the second tray and operable to retain a third disc, and a fourth hub, positioned on a second surface of the second tray, opposite the first surface, and operable to retain a fourth disc, wherein the fourth hub is offset from the third hub such that the third disc does not overlap the fourth hub and the fourth disc does not overlap the third hub; and wherein the second tray is positioned in the storage device adjacent to the first tray such that the first surface of the second tray is opposite the second surface of the first tray and such that the second disc does not overlap the third hub of the second tray and the third disc does not overlap the second hub of the first tray.
 3. The storage device for multiple discs of claim 2, further comprising a fastening device connected to an inner surface of the spine and operable to rotatably couple the first tray and the second tray to the spine such that both the first tray and the second tray are freely rotatable relative to the spine.
 4. The storage device for multiple discs of claim 3, wherein the fastening device further comprises a first T-shaped clip positioned on a top end of an inner surface of the spine and a second T-shape clip positioned on a bottom end of the inner surface of the spine, wherein each of the first and second T-shaped clips includes a base element that extends substantially perpendicularly upward from a plane of the spine and a cross element positioned at a top of the base element and extending substantially parallel to the plane of the spine, such that a first recess and a second recess are formed on opposite sides of the base element.
 5. The storage device for multiple discs of claim 4, wherein the first tray includes a first rod member on a top portion of an inner edge of the first tray and a second rod member on a bottom portion of the inner edge of the first tray, wherein the first rod member and second rod member fit into at least one of the first recess and the second recess of each of the first T-shaped clip and the second T-shaped clip to allow for the rotation of the first tray relative to the spine.
 6. The storage device for multiple discs of claim 5, wherein the second tray includes a third rod member on a top portion of an inner edge of the second tray and a fourth rod member on a bottom portion of the inner edge of the second tray, wherein the third rod member and fourth rod member fit into the other of the first recess and second recess of each of the first and second T-shaped clips to allow for rotation of the second tray relative to the spine.
 7. The storage device for multiple discs of claim 6, wherein an opening is formed in the first tray in an area in which the first disc and the second disc overlap each other.
 8. The storage device for multiple discs of claim 7, wherein an opening is formed in the second tray in an area in which the third disc and fourth disc overlap each other.
 9. The storage device for multiple discs of claim 5, wherein the back cover of the storage device further comprises a fifth hub operable to retain a fifth disc, wherein the fifth hub is positioned on an inner surface of the back cover, opposite the second surface of the second tray, and is offset from the fourth hub of the second tray such that the fourth disc does not overlap the fifth hub and the fifth disc does not overlap the fourth hub.
 10. The storage device for multiple discs of claim 9, wherein the front cover further comprises a sixth hub operable to retain a sixth disc, wherein the sixth hub is positioned on an inner surface of the front cover opposite the first surface of the first tray, and is offset from the first hub of the first tray such that the first disc does not overlap the sixth hub and the sixth disc does not overlap the first hub.
 11. The storage device of claim 9, wherein the front cover further comprises at least one retaining clip operable to retain printed information regarding the multiple discs.
 12. The storage device of claim 2, wherein the first hub is offset from the second hub by substantially 70 mm and wherein the fourth hub is offset from the third hub by substantially 70 mm.
 13. The storage device of claim 2, wherein a thickness of the storage device when the front cover and the second cover are in the closed position is substantially 15 mm.
 14. The storage device for multiple discs of claim 3, wherein the fastening device further comprises: a first U-shaped clip positioned on a top end of an inner surface of the spine and a second U-shape clip positioned on a bottom end of the inner surface of the spine, such that a first leg and a second leg of the U-shape of each of the first and second U-shaped clips extends upward from the inner surface of the spine; and a first connector associated with the first U-shaped clip and a second connector associated with the second U-shaped clip, wherein each of the first connector and the second connector include a first cylindrical protrusion extending from a first surface of the connector and a second cylindrical protrusion and a third cylindrical protrusion, adjacent to the second cylindrical protrusion, extending from a second surface of the connector, opposite the first surface, wherein the first cylindrical protrusion is structured to be received between the first and second legs of one of the first and second U-shaped clips, such that the first and second connectors are rotatably secured to the spine; and wherein the first tray is rotatably connected to the second cylindrical protrusion of the first connector and the second connector, and the second tray is rotatably connected to the third cylindrical protrusion of the first connector and the second connector.
 15. The storage device for multiple discs of claim 14, wherein the first tray further comprises a first post extending from a top end of an inner edge of the first tray and a second post extending from a bottom end of the inner edge of the first tray.
 16. The storage device for multiple discs of claim 15, wherein the second tray further comprises a third post extending from a top end of an inner edge of the second tray and a fourth post extending from a bottom end of the inner edge of the second tray.
 17. The storage device for multiple discs of claim 16, wherein the first post and the second post of the first tray fit into a cavity formed in the second cylindrical protrusions of the first and second connectors, respectively, such that the first tray is rotatably connected to the spine 16 via the first and second connectors; and wherein the third post and fourth post of the second tray fit into a cavity formed in the third cylindrical protrusions of the first and second connectors, respectively, such that the second tray is rotatably connected to the first and second connectors.
 18. A storage device for multiple optical discs comprising: a front cover; a back cover; a spine rotatably connecting the front cover and the back cover such that front cover and back cover are rotatable between an open position and a closed position and wherein a compartment is formed between the front cover and the back cover when they are in the closed position; and a first tray, rotatably coupled to the spine between the front cover and the back cover such that the first tray is positioned in the compartment formed by the front cover and back cover when they are in the closed position; wherein the first tray further includes a first hub, positioned on a first surface of the first tray and operable to retain a first optical disc, and a second hub, positioned on a second surface of the first tray, opposite the first surface, and operable to hold a second optical disc, wherein the second hub is offset from the first hub such that the first optical disc does not overlap the second hub and the second optical disc does not overlap the first hub; and wherein an opening is formed in the first tray in an area where the first optical disc and the second optical disc overlap each other.
 19. The storage device for multiple optical discs of claim 18, further comprising: a second tray rotatably coupled to the spine between the front cover and the back cover, adjacent to the first tray, such that the first tray and second tray are positioned in the compartment formed by the front cover and the second cover when they are in the closed position; wherein the second tray further comprises a third hub, positioned on a first surface of the second tray and operable to retain a third optical disc, and a fourth hub, positioned on a second surface of the tray, opposite the first surface and operable to retain a fourth optical disc, wherein the third hub is offset from the fourth hub such that the third optical disc does not overlap the fourth hub and the fourth optical disc doe not overlap the third hub; wherein the second tray is positioned in the storage device adjacent to the first tray such that the first surface of the second tray is opposite the second surface of the first tray and such that the second optical disc does not overlap the third hub of the second tray and the third optical disc does not overlap the second hub of the first tray; and wherein an opening is formed in the second tray in an area where the third optical disc overlaps the fourth optical disc.
 20. The storage device for multiple optical discs of claim 19, further comprising a fastening device connected to an inner surface of the spine and operable to rotatably couple the first tray and the second tray to the spine such that both the first tray and the second tray are freely rotatable relative to the spine.
 21. The storage device for multiple optical discs of claim 20, wherein the fastening device further comprises a first T-shaped clip positioned on a top end an inner surface of the spine and a second T-shape clip positioned on a bottom end of the inner surface of the spine, wherein each of the first and second T-shaped clips includes a base element that extends substantially perpendicularly outward from a plane of the spine and a cross element positioned at an outward end of the base element and extending substantially parallel to the plane of the spine, such that a first recess and a second recess are formed on opposite sides of the base element.
 22. The storage device for multiple optical discs of claim 21, wherein the first tray includes a first rod member on a top portion of an inner edge of the first tray and a second rod member on a bottom portion of the inner edge of the first tray, wherein the first rod member and second rod member fit into at least one of the first recess and second recess of each of the first T-shaped clip and the second T-shaped clip to allow for the rotation of the first tray relative to the spine.
 23. The storage device for multiple discs of claim 22, wherein the second tray includes a third rod member on a top portion of an inner edge of the second tray and a fourth rod member on a bottom portion of the inner edge of the second tray, wherein the third rod member and fourth rod member fit into the other of the first recess and second recess of each of the first and second T-shaped clips to allow for rotation of the second tray relative to the spine.
 24. The storage device for multiple optical discs of claim 23, wherein the back cover of the storage device further comprises a fifth hub operable to retain a fifth optical disc, wherein the fifth hub is positioned on an inner surface of the back cover, opposite the second surface of the second tray, and is offset from the fourth hub of the second tray such that the fourth optical disc does not overlap the fifth hub and the fifth optical disc does not overlap the fourth hub.
 25. The storage device for multiple discs of claim 24, wherein the front cover further comprises a sixth hub operable to retain a sixth optical disc, wherein the sixth hub is positioned on an inner surface of the front cover, opposite the first surface of the first tray, and is offset from the first hub such that the first optical disc does not overlap the sixth hub and the sixth optical disc does not overlap the first hub.
 26. The storage device for multiple optical discs of claim 25, wherein the front cover further comprises at least one retaining clip operable to retain printed information regarding the multiple discs.
 27. The storage device for multiple optical discs of claim 19, wherein the first hub is offset from the second hub by substantially 70 mm and wherein the fourth hub is offset from the third hub by substantially 70 mm.
 28. The storage device for multiple optical discs of claim 19, wherein a thickness of the storage device when the front cover and the second cover are in the closed position is substantially 15 mm.
 29. The storage device for multiple optical discs of claim 20, wherein the fastening device further comprises: a first U-shaped clip positioned on a top end of an inner surface of the spine and a second U-shape clip positioned on a bottom end of the inner surface of the spine, such that a first leg and a second leg of the U-shape of each of the first and second U-shaped clips extends upward from the inner surface of the spine; and a first connector associated with the first U-shaped clip and a second connector associated with the second U-shaped clip, wherein each of the first connector and the second connector include a first cylindrical protrusion extending from a first surface of the connector and a second cylindrical protrusion and a third cylindrical protrusion, adjacent to the second cylindrical protrusion, extending from a second surface of the connector, opposite the first surface, wherein the first cylindrical protrusion is structured to be received between the first and second legs of one of the first and second U-shaped clips, such that the first and second connectors are rotatably secured to the spine; and wherein the first tray is rotatably connected to the second cylindrical protrusion of the first connector and the second connector, and the second tray is rotatably connected to the third cylindrical protrusion of the first connector and the second connector.
 30. The storage device for multiple optical discs of claim 29, wherein the first tray further comprises a first post extending from a top end of an inner edge of the first tray and a second post extending from a bottom end of the inner edge of the first tray.
 31. The storage device for multiple optical discs of claim 30, wherein the second tray further comprises a third post extending from a top end of an inner edge of the second tray and a fourth post extending from a bottom end of the inner edge of the second tray.
 32. The storage device for multiple optical discs of claim 31, wherein the first post and the second post of the first tray fit into a cavity formed in the second cylindrical protrusions of the first and second connectors, respectively, such that the first tray is rotatably connected to the spine 16 via the first and second connectors; and wherein the third post and fourth post of the second tray fit into a cavity formed in the third cylindrical protrusions of the first and second connectors, respectively, such that the second tray is rotatably connected to the first and second connectors.
 33. A storage device for the storage of multiple discs comprising: a first tray operable to secure discs; and a second tray operable to secure discs, wherein each tray includes two hubs for securing the discs in the storage device, wherein a first hub is positioned on a first surface of each tray and a second hub is positioned on a second surface of each tray, opposite the first surface, and wherein the second hub is positioned on the second surface offset from the first hub such that a disc stored on the first hub does not overlap the second hub and a disc stored on one of the first and second hubs of the first tray does not overlap an opposing hub of the second tray. 